CT-based Assessment at 6-Month Follow-up of COVID-19 Pneumonia patients in China

This study aimed to assess pulmonary changes at 6-month follow-up CT and predictors of pulmonary residual abnormalities and fibrotic-like changes in COVID-19 pneumonia patients in China following relaxation of COVID restrictions in 2022. A total of 271 hospitalized patients with COVID-19 pneumonia admitted between November 29, 2022 and February 10, 2023 were prospectively evaluated at 6 months. CT characteristics and Chest CT scores of pulmonary abnormalities were compared between the initial and the 6-month CT. The association of demographic and clinical factors with CT residual abnormalities or fibrotic-like changes were assessed using logistic regression. Follow-up CT scans were obtained at a median of 177 days (IQR, 170–185 days) after hospital admission. Pulmonary residual abnormalities and fibrotic-like changes were found in 98 (36.2%) and 39 (14.4%) participants. In multivariable analysis of pulmonary residual abnormalities and fibrotic-like changes, the top three predictive factors were invasive ventilation (OR 13.6; 95% CI 1.9, 45; P < .001), age > 60 years (OR 9.1; 95% CI 2.3, 39; P = .01), paxlovid (OR 0.11; 95% CI 0.04, 0.48; P = .01) and invasive ventilation (OR 10.3; 95% CI 2.9, 33; P = .002), paxlovid (OR 0.1; 95% CI 0.03, 0.48; P = .01), smoker (OR 9.9; 95% CI 2.4, 31; P = .01), respectively. The 6-month follow-up CT of recent COVID-19 pneumonia cases in China showed a considerable proportion of the patients with pulmonary residual abnormalities and fibrotic-like changes. Antivirals against SARS-CoV-2 like paxlovid may be beneficial for long-term regression of COVID-19 pneumonia.


CT protocol
Non-contrast chest scans were obtained with a 64-section multidetector CT scanner (LightSpeed VCT; GE Medical Systems) or a 128-section multidetector CT scanner (Brilliance iCT; Philips Healthcare), with participants in the supine position during a breath hold following full inspiration.The scanning parameters were 120 kV and adaptive tube current, with the smallest field of view possible according to the body habitus.Axial reconstructions were performed with a section thickness of 1 or 1.25 mm using a bone filter.All 271 patients underwent initial CT scans and 6-month follow-up CT scans using the same parameters.

Image interpretation
All CT images were reviewed in random order by three radiologists (Y.Z, L.L, W.L, with 18, 17 and 10 years of experience in thoracic radiology, respectively), who were blinded to the baseline and clinical information of the participants.The readers independently assessed the CT features using axial images.Multiplane reconstruction is used to resolve any interpretive doubts.Images were interpreted at a window of 1000 to 2000 Hounsfield units and a level of − 700 to − 500 Hounsfield units, respectively, to assess the lung parenchyma.
CT features were described according to the Fleischner Society glossary 14 as follows: ground-glass opacities (GGO), consolidation, reticulation, linear atelectasis, traction bronchiectasis, parenchymal bands, honeycombing, acute respiratory distress syndrome (ARDS) pattern, crazy paving pattern, organizing pneumonia and pleural effusion.The CT evidence of pulmonary fibrotic-like changes was defined as presence of linear atelectasis, traction bronchiectasis, parenchymal bands and honeycombing 7,14,15 .

Statistical analysis
The statistical analyses were performed using the software SPSS 25.0 (IBM Corp., Armonk, NY, USA).Continuous variables are expressed as medians with interquartile ranges (IQRs) or means ± standard deviations (SDs).Categorical variables are reported as numbers and percentages.Continuous variables with normally and nonnormally distributed data were assessed using the two-sample t test or Mann-Whitney U test, respectively.Univariable and multivariable logistic regression analyses were performed to identify the predictive factors of abnormalities or fibrotic-like changes.Statistically significant difference was considered at P < 0.05 (two tailed).Bonferroni correction was used as appropriate.

Comparison of chest CT scores
In the Chest CT scores (Table 3), a significantly decrease was found for any abnormality (P < 0.001), GGO (P < 0.001), and consolidation (P < 0.001), whereas a significantly increase for fibrotic-like abnormalities (P < 0.001) compared with the initial CT scans.Meanwhile, reticulation showed insignificantly change between two CT scans (P = 0.33).

Discussion
We prospectively followed COVID-19 pneumonia patients discharged from hospitals in China during the turn of 2022-2023 with chest CT to better understand the radiologic change with time.In several follow-up studies of COVID-19 pneumonia patients infected in 2020, the results indicated that 48-78% of the patients still had pulmonary abnormalities at 6-month follow-up 5,[17][18][19] .A study of COVID-19 patients infected from February to May 2021 found that at least 66% of patients still had pulmonary abnormalities at 6-month follow-up CT, but the mean age of the patients were 82.3 years ± 7.1 (SD) 20 .With the worldwide phasing out of universal SARS-CoV-2 polymerase chain reaction test for the population until the increase of COVID-19 cases in China at the end of 2022, no new follow-up studies have been reported.In our study, 98 of 271 participants (36.2%) had radiographic abnormalities at the 6-month follow-up, with the most common findings being GGO (66 of 271 participants, 24.4%), and reticulation (57 of 271 participants, 21%).Our study showed the proportion of patients having residual pulmonary abnormalities in 6-month CT follow-up decreases after 2-3 years of genetic mutation of SARS-CoV-2.However, the most common pulmonary abnormalities were also GGO and reticulation, which did not differ from several of the studies mentioned above.Pulmonary fibrosis is one of the most important concerns in the long-term follow-up of CT in COVID-19.Most studies judged pulmonary fibrosis based on the interpretation of the Fleischner Society glossary for CT features.Linear atelectasis, traction bronchiectasis, parenchymal banding and honeycombing are the most common features used to evaluate pulmonary fibrosis.Several studies have reported pulmonary fibrosis and(or) fibrotic-like changes in 35-56% of COVID-19 patients in 6-month CT follow-up 7,20,21 .In our study, 39 of 271 participants (14.4%) had fibrotic-like changes at the 6-month follow-up CT.The presence of fibrotic-like changes was reduced in our study compared to studies mentioned above.However, the selection and recognition of the relevant CT features differed somewhat in diverse studies.Most of the fibrotic-like changes in COVID-19 patients would disappear up to 1 year post hospital discharge [21][22][23] .It has been reported that in survivors of the preceding SARS pandemic, fibrotic-like changes present at 6 months may still improve at 84 months of follow-up, such as traction bronchiectasis 24 .Actually, periods of fibroproliferation of variable severity are part of the natural history of diffuse alveolar damage 25,26 .Most fibrotic-like changes are reversible, so it should be cautious to describe them as fibrotic changes or pulmonary fibrosis.The exact proportion of patients with long-term, irreversible fibrotic www.nature.com/scientificreports/changes is unknown, but appears to be low, and the proportion of progressive pulmonary fibrosis is expected to be even lower, thus long-term follow-up studies are necessary 27 .
In both multivariable analyses of residual pulmonary abnormalities and pulmonary fibrotic-like changes, invasive ventilation ranked first among the risk factors.First, these patients were admitted to the intensive care unit, reflecting the severity of the disease and the slow recovery.In addition, some studies have confirmed that medically induced injury from invasive mechanical ventilation is probably an important cause of pulmonary fibrosis 26,28 .Paxlovid is another important independent prognostic factor, and it has been proven to be a very effective antiviral drug against SARS-CoV-2 [29][30][31] .Paxlovid, azvudine and glucocorticoid were the three most widely used drugs in the medication of the COVID-19 pneumonia in Beijing epidemic.Azvudine is another effective antiviral drug, which can increase the rate of nucleic acid negative conversion and early hospital discharge 32,33 .Glucocorticoid is effective in reducing mortality in severe COVID-19 patients 34,35 .However, in this study, using of Azvudine or glucocorticoid at the time of infection was not found to be effective in improving pulmonary residual abnormalities and fibrotic-like changes at 6-month follow-up.A reason for this may be that as an antiviral drug, the effect of Azvudine in inhibiting SARS-CoV-2 is weaker than that of Paxlovid, which was confirmed in a recent study 36 .Glucocorticoid acts to reduce the inflammatory response in the acute phase 37 , and may not relieve lung lesions in the chronic phase.
The long-term follow-up of COVID-19 is necessary but will inevitably increase considerable amount of work.Artificial intelligence (AI) may be helpful in detecting lung abnormalities and improving efficiency.AI models help in visualization and measurement of COVID-19 lesions in the lungs of infected patients, potentially facilitating timely, patient-specific medical interventions 38 .Moreover, AI has a good correlation with radiologists in detecting lung lesions, but more efficiently 39 .
This study has some limitations.First, this study did not correlate the performance of CT with clinical symptoms, laboratory examinations, and especially abnormalities in lung function, which was greatly restricted during the epidemic due to infectious disease control and prevention, and therefore could not be compared with lung function results at follow-up.However, changes in lung function play an important role in evaluating the regression of COVID-19 pneumonia and interstitial fibrosis in patients 40 .So, lack of relevant data makes a limitation of our study.Second, at the beginning of the COVID-19 epidemic in Beijing, due to the lack of paxlovid, some patients did not start paxlovid until the 2nd-4th day after admission to the hospital.Gradually, patients were able to ensure that standardized paxlovid therapy as soon as they were admitted to the hospital.This difference may have had some impact on the results.However, even so, the results suggest that paxlovid may has a promising effect on the long-term regression of the COVID-19 pneumonia.
In conclusion, this prospective study showed that in the COVID-19 pandemic of China during the turn of 2022-2023, a considerable proportion of the patients with pulmonary residual abnormalities and fibrotic-like changes were found at the 6-month follow-up CT.Furthermore, it was observed that antivirals against SARS-CoV-2 like paxlovid may be beneficial for long-term regression of COVID-19.While it is commonly assumed that the genetic mutations of SARS-CoV-2 have led to a significant decrease in its pathogenicity, our study indicates the importance of long-term follow-up for patients with COVID-19 pneumonia.

Figure 2 .
Figure 2. Serial chest CT scans in a 45-year-old man with severe coronavirus disease 2019 pneumonia.(A, B) Initial CT scans obtained on day 5 after the onset of symptoms showed extensive ground-glass opacities (GGO) with some areas of consolidation bilaterally.(C, D) CT scans obtained on day 9 showed extensive consolidation with few GGOs bilaterally.(E, F) CT scans obtained on day 179 showed almost absorption of the abnormalities with mild GGOs and interstitial thickening remaining.

Figure 3 .
Figure 3. Serial chest CT scans in a 61-year-old man with coronavirus disease 2019 pneumonia.(A, B) Initial CT scans obtained on day 4 after the onset of symptoms showed multiple ground-glass opacities and consolidation bilaterally.(C) CT scans obtained on day 22 showed moderate consolidation and reticulation in the lower lung lobes bilaterally.(D) CT scans obtained on day 191 showed obviously absorption of the abnormalities with subtle reticulation and linear atelectasis (arrow) in the lower lung lobes.

Figure 4 .
Figure 4. Serial chest CT scans in a 60-year-old man with coronavirus disease 2019 pneumonia.(A, B) Initial CT scans obtained on day 8 after the onset of symptoms showed multiple ground-glass opacities and interstitial thickening bilaterally.(C, D) CT scans obtained on day 180 showed traction bronchiectasis (white arrow) and interlobar pleural traction (black arrow) in the upper lobe of right lung.

Figure 5 .
Figure 5.Serial chest CT scans in a 54-year-old man with coronavirus disease 2019 pneumonia.(A) Initial CT scans obtained on day 9 after the onset of symptoms showed multiple ground-glass opacities and interstitial thickening bilaterally.(B)CT scans obtained on day 169 showed traction bronchiectasis (white arrow) and parenchymal bands (black arrow) in the lower lung lobes.

Table 2 .
Comparison of CT Findings in the lung between initial and 6-month follow-up CT.Data are numbers of participants, with percentages in parentheses.GGO ground-glass opacity.ARDS acute respiratory distress syndrome.

Table 4 .
Univariable and multivariable analysis of pulmonary residual abnormalities at 6-month follow-up CT.

Table 5 .
Univariable and multivariable analysis of pulmonary fibrotic-like changes at 6-month follow-up CT.